Machine for inserting fastenings.



L. A. GASGRAIN.

MACHINE FOE INSEBTING FASTENINGS.

. APPLICATION FILED SEPT. 51, 1907. 1 j a 1,054,173, I Patentea-reb. 25 1913.

9 SHEETS-SEEET 1.

- J22 g J46 /o.

a; WT/VESSES L. A. GASGRAIN.

MACHINE FOB. INSERTING FASTENINGS.

APPLICATION FILED SEPT. 5, 1907.

1,()54,173, Patented Feb. 25, 1913.

9 sums-sum 2.

VWTNESSES.

L. A. CASGRAIN.

MACHINE FOE INSERTING FASTENINGS.

Patented Feb.25,1913.

9 SHBBTSSHBET 3.

. AIILIOATION FILED SEPT. 5, 1907.

L. A. GASGRAIN.

MAGHINEYFOR INSERTING FASTENINGS.

APPLICATION FILED SEPT, 5, 1907.-

1,054=,178, Patented Feb.25, 1913.

9 SHEETSSHEET 4.

L. A. GASGRAIN.

MACHINE FOB. INSERTING FASTENINGS.

APPLICATION FILED SEPT. 5, 1907.

1 054 173. Patnted Feb. 25, 1918.

9 SHEETS-SHEET 5.

L. A.GASGRAIN. MACHINE FOB. INSERTING FASTENINGS.

APPLICATION FILED SEPT. 5, 1907. I

Patented Feb. 25, 1913.

9 SHEET$SHEET 6.

W/ TNES 55 //V v/5/v 70R.

film AM L. A. GASGRAIN. MACHINE FOR INSERTING FASTENINGS.

APPLICATION FILED SEPT, 5, 1907. 1,054,178. Patented Feb. 25, 1913.

9 SHEETS-SHEET 7.

L. A. GASGRAIN. MACHINE FOB INSEBTING FASTENINGS,

APPLICATION FILED SEPT, 5, 1907.

- Patented Feb. 25, 1913.

9 SHEETS-$11331 8.

0.0.0....0..0.0...0 IIIIIIIIIIIIIII.

L. A. GASGRAIN.

MACHINE FOB INSERTING FASTENINGS.

APPLICATION FILED SEPT. 5,- 1907.

Patented Feb. 25, 1913.

9 SHEETS-SHEET 9 UNITED STATES PATENT OFFICE;

LOUIS .A. CAS GR AI N, BEVERLY, MASSACHUSETTS, ASSIGNOR TO UNITED SH OE MACHINERY COMPANY, OF PATERSON, NEW JERSEY, A CORPORATION OF NEW JERSEY.

MACHINE FOR INSERTING- FASTENINGS.

I '0 aZZ whom it may concern:

Be it known that I, LOUIS A. Cascnam,

a citizen of the United States, residing at Beverly, in the county'of Essex and Gommonwealth of Massachusetts, have invented certain Improvements in Machines for inserting Fastenings, of which the following description, in connection with the accompanying drawings. is a specification, like reference characters on the drawings indicating like parts in the several figures.

This invention relates to machines for inserting fastenings.

Although directed primarily to machines for use in the manufacture of boots and shoes to insert fastenings of various lengths, shapes and kinds, either for uniting perma nently or temporarily parts of the boots or shoes, or for purposes of ornamentation or resisting wear, the invention comprehends, nevertheless, principles of construction and operation applicable to fastening inserting machines in general, whether such machines deal with previously formed fastenings, or

i make and insert, or insert andmake, their own fastenings.

The various articles above included under the term fastening have, in the arts, various designations according to the particular purposes which they subservc. For the sake of brevity, however, the term fastening will be used hereinafter to include everything of a nature tobe handled by machines of this kind.

A general object of the invention is to provide a fastening inserting machine which will operate effectively at speeds much in excess of those attained by such machines in use up to the present time.

A particular object of the invention is to provide, in a fastening inserting machine. simple and effective means for inserting in predetermined designs fasten'ings of one or several kinds, suchnneans being capable, by adjustment or change of parts, ofproducing a variety of designs.- 1

Machines of this type are frequently used for inserting slugs in the heels of boots or shoes. both to increase the wear resisting qualities of the heels of the boots or shoes and also to form ornamental designs upon the top lifts. This operation, with the ma- Specifieation of Letters Yatent.

Application filed September 5, 1907.

Patented Feb. 25,1913. Serial No. 391,521.

chines used up to the present time, has re quired considerable skill upon the part of the operator to perform itin such a manner that the resultant designs have an artistic and unifofm appearance. To permit this operation to be' performed by comparatively unskilled labor and at the same time to effect a saving in the time required for it the before-mentioned means for inserting fastenings in designs is preferably made as nearly automatic as is consistent with the nature and individual requirements of the work upon. which the machine is to operate. and'theparts are preferably so timed that independent movements of the various mechanisms, as well as cooperative movements, are in so far-as possible made coincident, the time consumed by the cycle of operations essential to the insertion of a single fastening being thus shortened. The time of the cy -is preferably still further abbreviated'by effecting, through single elements of the essential mechanism of the machine, functions of a plurality of separate elements of formerconstructions, thus cutting down the aggregate space trat'crscd in'the different functional movements and permitting a simplification of the construction of the machine.

Another object of the invention is to provide in a fastening inserting machine in which there are a plurality of sources of fastening supply, means for inserting automatically in predetermined order as to kinds ofv fastenings or lengths of spaces between successive fastening-s. or both as to-kinds ot' fastenings and lengths of spaces between successive fastenings, in a single row or in each of several rows, fastenings from said sources of supply and automatic controlling means for causing the insert-ion of fastenings to be interrupted while predetermined portions of the fastening receivingsurface of the work pass the inserting mechanism. The controlling means may be actuated from any part of the machine which moves in timed rela tion to the movement of the work, but in the preferred embodiment of this invention the controlling means is actuated by the work in its movement, this arrangement pre senting that form of construction in which there is the simplest relation between the amount of surface of the work carried past the inserting mechanism bythe movement ofthe work and the-amountof operative movement imparted to the. controlling means. It is, of course, obvious that the work may be moved either automatically or manually during the time that the insertion of fastenings is interrupted by the control-' ling means. Inasmuch, however, as it is immaterial at what rate the work, is moved or fed while the insertion of fastenings is interrupted .by the controlling means, since the insertion of fastenings will not be re- 'ings to be suspended while predetermined portions of the fastening-receiving surface of the work pass the inserting mechanism.

Theinvention comprehends broadly the provision of such suspending means in any. machine for inserting fastenings successively in a row.

The invention is directed also to the provision of means for causing the fastenings which are inserted in the two heels of a pair of shoes to form predetermined right and left designs, 2'. 8., designs which havelike general characteristics but which are so arranged upon the respective. heels that there lies between the heels an axislof symmetry with respect to the two designs. It adds greatly to'the appearance of the shoes when fastenings are being inserted inthe heels to form designs which are not symmetrical in'themselves, or ,which are not symmetrically arranged upon the respectiveheels, to so vary the designs upon the two heels. of

a pair that the designs will be. arranged symmetrically in the pair or, to expressit in other words, that the design upon one heel will be like the mirrored image of the designupon'the other heel.- This gives tothe designs right and left characteristics which make them harmonize better with the respective characteristics of. the right and;

left shoes of a pair.

Preferably the means above referred to is constructed to furnish automatically the design suitedto the shoe which is to be operated upon after the parts have been placed in proper relation for the insertion of the initial fastening or fastenmgsof the design, and means is preferably provlded also which automatically places the parts in the proper relation to furnish automatically the design suited to the shoe to be operated upon. \Vhen other than means controlled by the operator is provided for placing the parts of the design-controlling means in proper position to furnish the design suited to the shoe .to be operated upon, it is obviously essential that, unless the shoesare to be present ed to the machine in some predetermined order as to individual requirements, the means which automatically selects the design suited to the shoe shall be controlled. by some individual or class charactertistic of the shoe. Where such characteristic is present in the sole of the. shoe,as for example in its contour, a convenient way to effeet a design-selecting adjustment of the design-controlling means in accordance with "some characteristic of the-shoe is toprovide selecting means governed by the character-- istic of the sole. A eonstruction'of this kind,'.

in which a characteristic. of the shoe causes [to be made, from a. pluralityof diiferent'pre .determined designs which the machine is equipped to furnish aut0inatically, "aselection of that design which is particularly:

suited to a shoe having that particular or general characteristic, is believed to be .pref-- not necessitate making successive rightsho'es, i

or left shoes, exact counterparts of eachother in order to provide llke designs upon a series of shoes ofthe same type.

The invention comprehends' also novel means for rendering the mach ne operative to perform its work and for rendering it inoperative after its Work hasjbeen completed.

In the preferred'embodiment of the in vention, means is provided for causing-the insertion of fastenings to .be stopped at a predetermined distance from the edge of a heel at or adjacent to one of the corners of the heel, and said means is preferably arranged to be controlled by the heel in accordance' with itscontour. In order that the end of a row of fastenings may be gaged fiom the edge adjacent to another corner ofthe heel than that which first approaches the inserting mechanism, an important feature of the invention is the provision of means, preferably adjustable, for predetermining.the heel corner from the edge -.adja

cent to which the row of fastenings shall be gaged. Under the term corner the rounded corners of the heel are included as well as other points upon the edge of theheel at which the contour of the edge changes its direction abruptly. Moreover it will be understood that many features jof" the automatic stopping mechanism are susceptible of wide application:

In the accompanying drawings, this invention is shown as embodied in a machine containing many. of the novel features dis closed in United States Letters Patent No. 1.012.811 to Louis A. Casgrain, dated December 315. 1911, into which the co-pending application. Serial No. 301,473, filed Feb. In, 1906, matured. This invention is an improvement upon the machine of said Letters Patent in which claims to the novel subjectmatter common to the two applications have been made.

In the drawings l igure 1 isa front elevation of the upper portion of the machine embodying the preferred form of the invention: Fig. 2 is a side elevation of the machine illustrated in Fig. 1 but drawn to a smaller scale; Fig. 3 is a perspective view of the actuating cam disk removed and looking from the side opposite to that shown in Fig. cooperating parts of the machine being shown partly in section; Fig. 4 an elevation of the side of the machine opp-.

site to that illustrated in Fig. 2: Fig. 5 is a longitudinal sectional view. looking from the right. of a portion of the upper part of the machine; Fig. (l is a perspective view of a modification of one of the design-controlling elements: Fig. 7 a sectional view showing a modification of the presentercontrolling cam slide; Fig. 8 is a perspective view of the fastening strip retainer; Fig. 9 is a perspective view showing the relative po itions of the various mechanism for antomatically controlling the insertion of fastenings; Fig. 10 is a view, partly in section, of "the de ign dial and (fliipeltlifillg parts; l ig'. 11 is a rear view of the machine showing the horn-:urhuiting lever and connections:' Fig. 12 is a view of the base and standard of the machine showing the actuating treadle and the connections through the base from the horn-actiniting mechanism to the horn: Fig-13 is a detail view of a por tion of the construction shown in Fig. 12; Fig. 1 1- is a perspective view of the fastening presenter: Fig. 15 shows in dotted lines the layout of the presenter .;1111 which produces the design shown iuFig. 113; Figs. 17., 18 and 19 illustrate other designs which may be readily produced in this machine: Fig. 20 is a side view of the fastening length cam wheel. looking from the right in Fig. 1

Fig. 21 shows one of the fastening length cams detached 'rom the wheel; Fig. 22 shows a top lift in which every sixth fa tening inserted is longer than the other live: this design is produced by the cam wheel illustrated in Fig. 20; Fig. 23 shows in plan and section drtals ot' the automatic right and left mechanism and of the mechanism of gaging the distance from the edge of the heel adjacent to one of the corn'crs'o't' the end. or ends. of the row, or rows, of fastenings: Figs. 24 and 25 show right and left the lever top lifts respectively, with right and left designs produced by the design dial shown in Fig. 23; Fig. 26 is a plan view of the design dial showing a different arrangement of the stops fro that shown in Fig. Fig. 27 shows the design produced when the inserting .mechanism is controlled by the outermost row of stops upon the dial shown in Fig. 26. Figs. .28 to 32. inclusive, illustrate the successive steps in the inset tion of a single fastening.

Referring to the drawings, a base or standard 10 supports a head 12 which carries a main driving shaft 14. Upon the shaft 14 are mounted fast and loose pulleys 16 and 18. a belt shifter 20 serving to shift the belt from the'loose pulley 18 to the fast pulley 16 when it is desired to connect the machine with a source of power. Such coir nection is preferably constantly maintained when the machine is in use. A sleeve 22, surrounding the shaft' 1% and itself so mounted in bearings in the head Has to afford a' bearing support for the shaft. 14, carries at its front end a swinging frame 21, said frame being shown as integral with said sleeve. The swinging or oscillating movement of the frame 24 effects the feeding of the work over the work support in a manner to be hereinafter described. The said swinging movement is imparted to the frame 24 through a lever 26 pivoted at 28 upon the machine head. At its upperend 26 carries a cam roll 30 which travels in a cam groove 32 in the cam disk 34 attached to the front end of the main shaft 14. A link 36 pivot-ed at one end to the swinging f nine 21- and at its other end connected by a lamp 38 to the lower end of the lever 26 transmits to the swinging frame the movements of said lover. The distance the work is fed between successive fasteningin ert-ing operations may be 'aried by vary-. ing the position of the clamp 38 upon the lower end of the 'lever 20.

Mounted to reciprocate in the swinging frame 24; is mechanism for ripping insert.- ing and severing successively from a strip of fastening material fastenings of the same or ditferent lengths. This mechanism com prise in the con truction shown. a reciprocating head 40 upon which are pivotally mounted carriers -12 and H for the gripping and severing means. said means being shown as consisting of cutters it) and 48. The cutter carrier head it) is shown as shaped like an inverted T and the cutter carriers 42 and 14 are pivoted near the1r outer ends at and 5; to the respective arms of the T. The cutters l6 and 18 are confined in their respective carriers by dovetailed clamping blccks 54. 34. held in place by headed screws 3 5th Longitudinal adjustment of the (.tlttcrs in their carriers is effected through screws 58, 58 mounted in said carriers and bearing against the .ends of the cutters, said screws being provided with locking nuts as shown.

The cutter carrier head 40 is connected at its upper end to an eccentric 60 upon the main shaft 14 by a sliding block and slot connection 62, (it whereby reciprocating movement is imparted to the cutter carrier head by the rotation of the main shaft. A gib 65 adjustably held in the swinging frame 24 is adapted to take up looseness between the cutter: carrier head 40 and the swinging frame. A. forked slide (50 mounted to reciprocate in the cutter carrier head is provided at its upper end with a cam-roll 68 which travels in a cam groove 70 upon the rear side of the cam disk 34:. The fork members 72, 74 of the slide 66 are pivotally connect'ed at 7 6 and 7 8 to the respective. cutter carriers 42, 44. The cam groove :70 in the cam disk 34 is preferably s0 shaped that at'each rotation of the main shaft the slide 66 is caused first to mov e relatively to the cuttercarrierhead 40 at? the beginning of the downwardmovement of the head to cause the cutters to move simultaneously toward a line through their pivots and thus to close upon and grip a strip of fastening material lying between them; then to move with the head to hold the cuttersv positively from movement in either direction relatively to the head while they are being carried downward by the head to force the end of the W struction shown, the

strip into the work; then to move relatively tothe'head to cause the cutters to sever the strip-1 after the end hasbeen inserted to th desired point, and-finally to move relatively to the head to cause the cutters to separate to permit them to pass freely/ over the strip in their upward movement; In the conipping'movement of the cutters. is effected yso shaping the cam groove 70 that the slide 66 holds the cutting edgespf the cutters substantially stationary so far as vertical movement is concerned i while the outer ends continue to mdve with lengthwise of the strips during the grip the cutter carrier head. This insures the simultaneous gripping. of a plurality of fastening'strips which may lie between the cutters, provided the strips are alsoheld'stationary at this time, since there is no relative movement of the strips and cutters ping movement of the cutters. This prevents also scraping of the sides of the strips at the time they are gripped. The. cutters are actuatedto sever the strip in a similar manner; Between the gripping and severing actions of the cuttersItheFstrip is held gripped by -them, and-to prevent releasing and premature severing action of the cutters the cam groove- 70' is preferably so shaped that at this time it causes the cutting edges of the cutters to move downward at the same speed as the cutter carrler head.

to grip "the strip As the cam roll 68 is confined in the cam groove 70, the entire control of the cutters through the slide 66 is obviously positive, this being the preferable construction in a. machine intended to run at high speed.

It will be observed from the foregoing description that. the cutters are actuated to grip the stri alwaysat thesame point in their path "0 movement. If, therefore, the strlp remains stationary after being. relasedby the cutters, the successive fasten ings severed nomjtgwin'te all of the same length. Provision is therefore made for varying the distance[ from-the end of the strip of the'pointat which it is gripped by the cutters by moving the stripmore or less -relatively.to thepointin' the path of their movement at which the cutters are actuated In the construction shown, a stripufretamer 80 is mounted to slide vertically between the fork members of -the'slide 66. Provision is also made for movement of the retainer 80 transversely of the slide 66 for a purpose hereinafter set forth. The retainerv 80 is provided with a plurality of-strippassages' formed by ad-v jacent grooves 82 in the grooved members. 84, 86, 88, 90,s ee Fig. 8,-+each of the pas-. sages being shaped to. correspond with .the shape of the stripwhich is to pass through it. The passage formed by two adjacent 1 grooves is made somewhat smaller than the strip for. ich it is intended, so that when the grcio' "ed members are press'ed' toward each other the strip will be fri'citionally held by them. A curved spring 92', bearinga't its ends upon the outer grooved member 90 and pressed against the member'90 with more or less force by air adjusting screw 94, causes all of the grooved members to press upon the adjacent" strips and thus yieldingly hold them from movement relative to the retainer. A slide'96 mounted in the back part of the swinging frame 24 has forwardly projecting fork members 98 upon which the the retainer 80 is slidingly mounted for movement transversely ofthe forked slide 66. The forkflmembers 98 "are confined in grooves in the sides of the retainer 80 whereby the retainerv is compelled to move with the slide 96. The slide 96 is provided at its back with" curved rack teeth 100, concentric with the center of: oscillation of the swingingframe 24, whereby they may swing with the frame 24 relatively to the teeth upon the adjacent end'of a lever 102 with which they are constantlyin operative engagement. The lever}. 102 is loosely mounted upon the rock'shaft 10 i and at its end opposite the slide 9dcalries a cam roll 106 which engages 'successivelycam membars 108 upon a cam diskzl-lO when the igserting mechanism is operating to insert fas tenin s. .At such times the cam roll lOG-is held in contact with the cam members 108V by a spring 11:? hearing at one end upon the head 12 and at its other end upon the under side oi the lever 102. The cam'disk 110 is mounted upon a shaft 114, driven by a worm gear 115 from a worm 116 upon the main shaft 14. In the construction shown, the speed ratio of the shaft 114 to the main shaft 14 is as 1 to 6, and the cam disk 110 is accordingly provided with six cam members 108, so spaced about its periphery that one of them operates upon the cam roll 106 at each rotation of the main shaft 14. The amount of movement imparted to the retainer 80 through the slide 96 and the lever 102 by acam member 108 depends obviously upon the shape of the said cam member, especially upon the amount of its extreme projection from the periphery of the vain disk. By shaping the'cain members 108 so that the retainer 80 and with it the fastening strip, oistrips, is moved lengthwise more or less relatively to the point in the path oi": their movement at which the cutters are actuated to grip the strip, or strips, and kept in the position to which it has been moved until after the strip or strips, has been gripped by the cutters, a dilterent length of fastening may be obtained from that which. would be produced by the normal relative movement of the cutters to a stationary strip or strips. By mule ing diti'erent cam members 108 about the periphery ot' the cam disk 110 of different shapes. successive fastenings ofdifferent lengths may he formed. In the construction shown. six difi'erent lengths of fasten ings in succession are possible but the number may obviouslybe varied by constructing the machine with a ditl'ercnt speed ratio between the main shaft 14; and the shaft 114.

lVithin the capacity of the machine as constructed. the order as to lengths in which the fastenings arc to be inserted may obviously be varied as desired. As shown in a radial groove 111 on the side of the cam disk 110 adjacent to another cam dish 260' also attached to the shaft 114. A spring tongue 113 holds the cam member 108 t'ricmembers 168 upon the periphery ot the cam dish 110 may thus be readily inten chan ed or the cam members may be rehy others of diflcrent thickn on i it desired to insert successively s e ot the greatest length provided t ma inc, the cam members may emorcd.

1 ng a cam member 168, shaped 'e slide a nnivement approxithe slide 6", the fastening length 1neasi1rretativ niov'ement of the cutters and the str p, or strips, will be reduced to fOl'r' members 72 i members having 1 re to andqcomciuent with that t zero and no fastening will be inserted when this particular cam member is controlling the fastening length. v

In Fig, 22 is shown a top lift in which the fastenings are inserted in a "series made up which is to be provided with a row or rows of fastenings for ornamental or Wear resisting purposes, or both, and as only a few long fastenings properly distributed are necessary for this purpose, a great saving of material is pern'ntted. s

ln the construction shown a single fasten ing length controlling means is provided for all the ditlerent rows of fastenings which the machine is constructed tov insert simultaneously. It is obvious that by providing a separate retainer for each fastening strip and separate length controlling means for each retainer, it will be possible to insert Simultaneously in a plurality ofrows fastenings of different lengths.

The cutters 46, to for each strip are preferably made wide enough to insert and sever fastenings in more than one' row at a time, and in the construction shown they are made wide enough to insert and sever fastenings in two rows at a time. Preferably a plurality of sources of fastening supply is pr0- vidcd. ln the construction shown three sources of supply are provided from which are drawn threc strips Vi, X and Y, 0t fastening material. These strips may be alike or they may difl'er in size, shape or nature. as desired. The strips are passed down through. the retainer 80 and through passages in a presenter 117, these passages be- 2 lug spaced apart the distance apart it is de- F s. and 21, each member 108 is 5 provided \Y'tlll a shank 109 which fits into sired to havethe rows of fastenings; The passages are shaped to correspond with the shape of the fastening strips which are passed through them and as shown in Fig. tel are formed by adjacent grooves in two blocks 118. 119, confined in a space formed tionally in place. The positions of the cam by recessing the adjacent faces of the two members 120, 1:21 of the presenter and held against vertical movement relatively to the presenter by laterally projecting lugs resttront end of an actuator bar 128. The presenter 117 is mounted between the and 74 of the slide 66, the the presenter and the fork interlocking tongues and ores which permit of movement of the accnt sides of :illQI transversely of the slide 66 while compelling movement: of the presenter ver- 1 tically with the slide. By the movement of the presenter transversely of the slide 66 and likewise transversely of the cutter carrier head 40, the fastening strips are moved relatively to the cutters 16 and 48. The strips may thus be moved so that fastenings from the same strip will be inserted indifferent,

rows, or fastenings from different strips in the same row, or they may be moved to placeone or more beyond the reach of the cutters and again within reach, whereby different .spacings of the faste'nings in any rowmay be effected. By thus varying the relative positions of the fastening strips to the inserting mechanism whereby fastenings may be selected from different sources of supply tainer 80 and compels movement of the re ta'iner with the presenter transversely of the slide 66.

1 Means is preferably provided for causing the presenter to present the fastening strips to the inserting mechanism in predetermined order. In the construction shown, the presenter has an L-shaped rearward extension 124 which engages a vertically extending slot 126 in a vertically extended portion at the front end of an actuator bar. 128. Mounted in a guideway in the actuator bar 128 is a rack-toothed bar 130 with the teeth of which engage the corresponding teeth upon the lower end of a lever 132, loosely. mounted upon-the rock shaft 104.. The lever 132 carries at its upper end a cam roll 134 which travels in a pattern cam groove .136 formed on the side of the cam disk 110 away from the cam disk 260; The cam groove 186 is so shaped as to impart to the rack toothed bar-130, through the lever 132 a reciprocating movement. Diiferent shaped cams may be'used to cause the reciprocating movement to extend over two or more revolutions of the main shaft as desired within the capacity. of the machine, as determined by the speed ratio between the shaft 14 and the shaft 114. or to cause the reciprocating movement to be variously modified or broken up so long as the actuator bar 128 is not moved by the rack-toothed bar 130 while the fastening strip is gripped ,by the cutters.

Thecam disk 110 in which the cam groove 136 is formed is continuously rotated through its connection with the main shaft 14.

Means is provided for connecting the pie senter actuating-bar 128 and the bar 130, b

so that. the bar 128 will partake either' of the full reciprocating movement of the bar the. presenter 117 130 or of the movement nr'one direction only. As here shown, two dogs 138 and 140 are pivoted to the actuator bar 128 and are adapted to engageshoulders142 and 14m on the underside oft-he racketoothed bar layout of'the cam groove 136. WVhen the dog 140 is inoperative, the actuator bar and the presenter will be moved rearwardly or to the right as shown in Fig. 5 by the racktoothed bar, and will remain in this position until the dog 1 10 is again moved into operative position, the rack-toothed bar meanwhile reciprocating back and forth in the guideway in the actuator bar without iinparting any movement to said actuator bar and consequently only one selection of fastenings will be inserted successively. lVhen dog 138 is inoperative, the actuator bar and the presenter will bemoved forwardly or to the leftv in Fig.5 and a different selection of fastenings will be inserted successively until the dog 138 is again moved into operraek-toothedbar. It will be understood that in the embodiment of the invention herein illustrated the friction betweenthe movable parts is relied upon to controlthe presenter to maint..in it in a predetermined position after its disconnection from its posi- .tive actuating means. The means for actuating the rack-toothed bar and the connection between the rack-toothed bar and the actuator bar are substantially the same as in the copending application hereinbefore cited. The operative and'inoperative positions of the dogs 138 and 140 are controlled by two plungers 1 18 and 150, sliding in openings in the support- 146; for the actuator bar and bearing upon the under side of the dogs. The dogs are held yieldingly in their lower-- most position both by gravity andby the action of a spring 1 11 bearing upon their inner ends above their pivots.

' Removably' attached to the under side of the support 146 is a support 152 in which are guide openings for the plungers 1 18 and .ative engagement with the reciprocating 17:0; and a guideway for a cam slide 151 carrying a spring-cam 156 adapted to actupon the lower ends of the pl lingers. The spring cam 156 has a portion, adaptedto raise each plunger as it- IS moved under the plunger andin Fig. -5 these portions are shown as: spaced apart such a distance that when the cam slide 15a is moved. in either direction y the means there shown, it-moves one of the raising portions of the cam under one plunger at the same time that it moves the g 1:

other raising portion from under the, other.

plunger. This serves to bring only one dog at a time into engagement with its corresponding shoulder on the under side of the rack-toothed bar 130, so that the actuator bar is connected to the rack-toothed bar for movement 'in one direction only.

-\Vith the cam groove 136 shaped as shown in Fig. 5, when the do 138 is moved into engagement with the sliouldcr 142, 'the actuator bar 128 and the presenter 117 are moved to the right by the rack-toothed bar 130 and the strip W is brought into position to be acted upon by the cutters. When the dog is moved into engagement with the shoulder 144 the actuator bar 128 and presenter 117 are moved to the left and the strips X and Y are brought into position to he acted u )011 by the cutters. If the spring cam 156 be constructed and mounted as shown in Fig. 7, so that in one position of the slide 154 the two raising portions engage the plnngers at the same time and in another position only one of the plnngers is engaged by n raising portion, with the same layout of the pattern cam groove 136 a design will be formed in which those portions controlletil by the cam groove, when both dogs are in. operative position, will be made up of alternate selections of fastenings from the strip W on the one hand, and the strips X and 1' together on the other hand, and the portion controlled by the pattern cam groove when only a single dog is in position will be made up of selections from the strip W or from the strips X and Y together, according as the dog 138 or the dog 140 is left in raised position when the. cam slide 154. is moved to drop one of the two plnngers.

'lhe cam slide 154 is provided at its forward end with rack teeth with which ongage corresponding rack teeth upon an arm 1.3a mounted upon a rock shaft 1130 in a bracket on the support 152. At its other end the rock shaft 100 is provided with a linger 162 which is adapted to be engaged by means hereinafter to be described to cause the arm 158 to move the cam slide 154 either to the right or to the left.

In Fig. 6 is shown a modification of the menus for actuating tho plungers 148 and 150 to place the dogs in operative or inoperative position. This means may be substituted for that shown in- Fig. 5 by simply rcmovin the support 152 with its attached parts an attaching the support 153, a portion of which is shown in Fig. (1. The means shown in Fi (5 is identical with that shown in Fig.7of t ie coendin ap lication above referred to, and or a tctai ed description thereof reference may be had to the specification in said application.

Preferably automatic means is provided for effecting the movements of the cam slide 154 shown in Figs. 5, T and t) at pre- BEST AVAltABLE CQP;

determined times while a piece of work is being operated upon by the machine. The times at which movement is imparted to the cam slide may be. determined in any suitable way as. for example, by the mnnber ot' fastenings inserted, or by the amount of fastenirig-receiving surface that passes the inserting mechanism before a movement, or between the movements. of the slide. In the construction illustrated, a controlling dial 161 having a milled flange 1G6 adapted to be engaged by the, edge of the work and to position itv properly upon the work support. with res wet to the inserting mechanism is rotatalily mounted upon a bracket 1G8, attached to the machine head. A sleeve 171). screw-tbreaded at its it met end and novided at its lower end Will a flange 171 having teeth upon its lower face is screwed into the hub ol the dial and is: provided with a lock nut 1T". bearing upon the face of the dial. The sleeve lit) is rotatabl mounted in the bracket H18 and turns with the dial 11H. lassing through the sleeve is the shank 174 of a segment-slia nal tccler controlling stop 175. said shank carrying upon its lower end a knurled nut 1715, by which the segment 17?) may be placed in dill'crcnt angular relations to the dial. A curved spring between the segment 175 and the nut- 1T2 presses a pin upon the upper surface of the. knurled nut 176 into engagement with one of the teeth on the flange 171 and keeps the segment 17?) in the position to which it is turned. A coil spring 178 surromnling the lmb of the dial in a recess on the umlcr side thereot is connec ed at. one end to a pin 1811 upon the hub and at. the other eml to a pin 18) upon the bracket. Adjustably held upon the bracket 1(38 by screws 181. is a plate 181) carrying a stop pin 187 with which a pin 181-1 on the under side of the dial is adapted to he held yieldingly in contact when the dial has not been partially rotated by engagement with the work. The spring 178 is put. under an increased tension by the rotation of the dial in the work-feeding direction, whereby, when the dial is released by the work. the spring quickly returns it to initial position with the pin 188 in contact with the stop pin 187. The Face of the dial is shown as depressed below the milled flange liii Upon the face of the dial are carried pairs, 1110. 1th! and .1114, 1911, of series ot sin is arranged concentrically with res wet. to l to center of rotation ot' the dial. '1 iose stops which are. in immediate succession mav be, made. integral with each other, in which case a continuous series around the dial would form a ring as shown at 191). 10:2. in Fig. 23. For convenience in replacing one series of stops by another the pair o1 series 190. 192 is mounted upon an annular base 12 8 held in position upon the dial by dowel pins as shown in 10 and the pair'tlti l, 196 is mounted a on another similar' base 199, similarly'lield in position. The series in each pair are spaced apart a )on'the base at a distance sutiicientto allow tie engaging pins. to be hereinafter deseribedyto pass down between them and engage the base. Only one of each pair of series of stops is intended to be used at one time. One of the pair of series 190,192, is adapted to cooperate with a pin 200 slidinglv mounted in a pin holder 202 attached to tie lower end of the vertically reciprocating slide bar 204 when the pin holder has been moved to bring the )in over the one of the. pair with the mem ers of which it is to emmge. To provide for movement of the pin'holder .202, to bring the pin 200 over either of the series of stops 100, 192, the

guide 206 at the upper end of the slide bar 204 is mounted upon a pivot .208 having its bearing in the machine neatt. The lower end of the slide bar is thus permitted to swing within limits determined by stop pins 210, .212, upon the machine head at opposite sides of the bar. With one of the series of stops 194. 106, according to the position of the pin holder 202. is adapted to engage a second pin 214. slidingly mounted in the holder 202, the holder being in proper position to bring the pin .214 into operative relationship to the series 194 when it has been moved to place the pin .200 in operative relationship to the. series 190. In the same way the pins 200 aml 914 are adapted to cooperate simultantmusly with the respective series it aml ltH'. The pin .200, the shank of which is oti'set to bring it adjacent to the shank of the pin ll-l, has a sliding movement in the holder 202 suttieient to cause it to knock loose at each reciprocation of the slide bar .204 the spring-pressed locking ball 216. which engages the )ill tZI-t on one side and the inclined wall of the holder 202 on the other side to lock the pin in the position to which it has been moved i engagement with one of the stops. This movement of the pin 200 releases the pin .214 at each reciprocation of the slide bar 20 l. so that the pin 214 will be he )i in raised position with respect to the holt er only when engaged by sto )S at successive rectprocations of the sli( e bar. The return of the pin 214 to its lowermost position insured by a spring 218 connected at one end to the pin and at the other end to the holder. Projecting from the back side of the pin 214 are two lugs 2'20, 229. between which lies the end of the finger 162 and which are adapted to raise the end of the finger 162 or depress it, according as the pin engages a stop or does not engage one, whereby the cam slide 15- is moved in one direction or the other by the arm 158 upon the rock shaft 160 to vary the relative position f the dogs 13S and 140. Projecting from the back side of the slide bar 204 are lugs 224. 2-2threspectively above and below a pin 228 projecting laterally from a casing 230 pivoted at one end and having projecting from its other end a spring-pressed plunger 232. The plunger 232 is pressed by its spring into one of two notches upon opposite sides of the pivotal center of an actuatin lever 234. said lever having an arm extended into a slot 23a in a sliding bolt 238 held for limited movement in an opening in the swinging frame 24 by a pin and slot. connection 240.

A locking pawl 242 pivoted in an opening in the upper part of the slide 9t) is springpressed into engagement with the forward end of the bolt 238. When pushed forward by the bolt- 2%, the pawl 24:? is adapted to engage a ledge 2H upon the hack of the slide (36 whereby the slide 96 is locked to the slide (36 for the greater part of the movement of the latter and there is no fastening measuring relative movement of the retainer 80. carried by the slide 96. and the cutters. and no fastening is formed or inserted. After the operator has pressed the treadlc or other manually controlled means for rendering the machine operative to insert fastenings, the position of the sliding bolt iiiand therefore of the. pawl 24-2 is obviously dependent upon the position of the. spring pressed plunger 232 with respcetto the. pivotal center of the actuating lever .234. When the end of the plunger is in the notch above the pivotal center of the lever 234. the. lever is moved in a direction to place the forward end of the. bolt .238 in its rearmost position. the pawl 242 is disengaged from the ledge 2-H, the slide 96 is free to move relatively to the slide (56 and the parts are in position for the insertion of fastenings. \Vhen the plunger 232 is in the notch below the pivotal center of the lever .234. the bolt 238 is moved forward, the slides lit, and tit; are loclt'ed together by the pawl 242 aml ho fastenings can be inserted. It will be noted that the engaging end of the plunger 232 is beveled from a central edge and that the adjacent sides of the notches in the lever 23H slope gradually to a central ridge. so that the plunger may be pushed from one notch into the other simply by overcoming the pressure of its spring. The plunger casing is moved to move the plunger from one notch upon the lever Eli-3i into the other by the engagement of one of the lugs 224, 226. upon the reciprocating slide bar 204 with the pin "25% upon the plunger casing.

The means for reciprocating the slide bar 204 comprises an arm 246 carrying atits forward end a pawl 24:8 adapted to engage one of .two notches 250 252, upon the Siltlt' bar 204, to raise said bar. At its rear end thearm2-16 is attached to the rock shuftlOi.

Extendingrearwardly from the rock shaft 10-1 and attached thereto is an arm 251 carrying a cam roll 256 traveling in a cam" groove 258-in a cam-disk 260 attached to the shaft 114. The cam-groove 258 is so shaped as to cause the rock shaft 104 to be oscillated, therebyraising and lowering the arm 246 and awl 2-18,at each rotation of the main sha t- 14. -11 spring 262 bearin at one end upon the arm'246 and at its ot 181 end upon the tail of the pawl 248 presses the plawl normally-toward the slide bar- 204.

pon the downward movement of the arm' 246, however, the tail of the pawl engages the upper surface of a wide 261 for the slide bar and rocks the paw away from the slide bar. The slide bar is thus released at each rotation of the main shaft and is moved downward by gravity and by a spring 266 until the pin 200 strikes the surface beneath it and checks further downward movement. If the in 200 strikes one of the stops in either he series 190 or the series 192. the slide bar 204 will be held in such position that the pawl 248 upon its next upward movement will on age the lower notch 252 in the slide bar, am will raise the bar sailiciently to cause the lug 226 to enga e the pin 228 upon the plunger casing an push the plunger 232 from the lower notch in the lever 231 into the up )er, if this has not previously been done. I s hereinbefore pointed out, with the plunger 232 in the upper notch in the lever 234 the machine is operative to insert fastenings. If the pin 200 in its descent falls into a space in one of the series 190, 192, where there is no stop or falls between the series 100, 192. the lug 22 will engage the pin 228, the plunger 232 will be moved into the lower notch upon the lever 284 and the bolt 238 will be moved forward to cause the pawl 242 to lock to other the slides 06 and 66. With the slide liar 204 in this position, the pawl 248 upon its upward movement will engage the upper notch 250 on the slide bar and the bar will not be lifted far enough to cause the lug 226 to move the plunger 232 from the lower back to the upper notci upon the lever 231.

From the decription that has gone before, it will be seen that the series of stops 160 and 102 predcterminc the order of tie interruptions of the fastening-inserting operation. and that the series 194 and 196 predetermine the order of the automatic changes in the relationship between the fasteninglpresenter and its cont-rolling pattern cam. y varying either the number or the position, or both the number and the position, of the stops in any of the series upon the dial one o the predetermined designs in which fastenings are to be inserted by the machine will be varied without the necessity :of changing the shape of the pattern cam groove 136. Obviously, ofcourse, the design may be further varied as in the machme of the pending application above re- -.ferred to by substitutin for the cam disk a disk having a ditierent layout of the pattern cam groove 136. An example of a design'that may be produced with a dif cront layout of the pattern cam groove 136 is shown in Fig. 16, the cam groove which 'produces this design being shown in dotted lines upon the cam disk 110 in Fig. 15. When this design is produced the dogs 138 and 140 are kept in the )osition shown in Fig. 7 and the -ctuator ar 128 and rack tooth bar 130 move together in both directions. It will be seen from Fi 16 that a single reciprocation of the root tooth bar 130 in this case extends over six rotations of the main shaft 14, or over six separate fastenin -inserting operations. The machine il ustrated is provided with three sources of fastening supply comprising three fastening strips, w, w and y, drawn from coils contained in three reels. 270, 272 and 274 constructed and mounted in substantially the same manner as the reels disclosed in the United States Letters Patent to Louis A. Casgrain, No. 1,001,815, granted August 29, 1911. for improvements in reel supports, to which reference may be had for a more detailed description of these parts. The strip w is shown as being circular in cross section, the strip a: as diamond shaped and the strip y as square. In producing the design as shown in Fig. 16 it will be noted that the middle strip m is omitted. The actuator bar 128 and rack toothed bar 130 being locked together during the successive fastenin -insert1ng operations, when the cam rol 134 u on the lever 132 arrives at the part a in t e cam roove 186 the presentcr 117 will be mover to its extreme forward position bringing the strip 1 between the cutters and moving the strip w beyond them as shown-in dotted lines in Fig. 16.

In this position the fastening identified by the reference letter a in Fig. 16 will be inserted. \Vhen the cam roll 134 arrives at I) in the groove 136, the strip 3 will be moved backward out of reach of the cutters and the strip w will be moved between them but into a position slightly in front of that in which the strip 3 was acted upon by them. and the fastening indicated by b in Fig. 16 will be inserted. Likewise the fasteuings indicated by c, (l, and e and f in Fig. 16 will be ositioned in the design by the correspondingly lettered parts of the cam groove 136 at successive rotations of the main shaft 14 and then, since the speed ratio of the shaft 114 to the shaft 14 is as one to six the cam disk 110 will complete. its rotation bringing the strip 7 again be- Ili- tween the cutters. In producing this. de-

sign the series of stopswith whichthe pin 200 cooperates must/be continuous if the zigzag row of fasteningsis to be continuous,- as it 18 shown in Fig. 16.

Thedesi'gns shown in Figs. 17, 18 and 19 are produced by the cam groove 136 shaped as shown in Figs. 5 and 20, which, when the actuator bar. 128 and rack toothed bar 130 are connected to move together in both di rections places, at alternate fastening-inserting operat1ons,.the strip 10 between the cutters and then both the strips (0 and y, the strip 3 being brought into the position before occupied by the strip to, producing thereby the desi n shown in Fig. 17, provided as above t to series of stops cooperating with the pm 200 is continuous and provided also the connection between the actuator bar 128 and the rack tooth bar 130 is not interrupted. When the dog 138 is in contact with the shoulder 142 and the dog is in its lowermost position, the design shown in Fig. 18 is produced. With the positions of the dogs reversed, the dog 140 being in contactwith the shoulder 144, the design shown in Fig. 1!) is produced. When designs like those shown in Figs. 10 to it) are to be produced, the manually operated device shown in Fig. (i for cont-rolling the positions of the dogs may be used, since the positions of the dogs do not need to be changed during the operation of the machine upon a single piece of work. \Vhen, however, it is desired to produce automatically more comlicated designs the mechanism shown in ig. 5, which is constructed to furnish automatically two different arrangements of the dogs 138 and 140, is preferably used.

A design which it has been difficult to produce with desired uniformity is one like that shown in Figs. 24 and 25 which has a feature that is diti'erently placed in the design, according as the design is to be u on the heel of a right shoe, or upon the bee of a left shoe of a pair. As hereinbefore pointed out it is preferable to so arrange upon the respective heels of a pair of shoes a design which is not symmetrical in itself, that it will not mar the symmetry of the pair when the bottoms are seen side by side. As the work is fed by the machine always in the same direction, to reverse by manual control of the inserting mechanism the order in which the distinctive features of a complicated design appear in a right shoe to suit it to a left shoe is practically impossible with machines which run at ordinary speeds and might be fairly held to be impossible with machines designed to run at high speeds.

With the mechanism hcreinbefore described, it is possible to insert automatically with one passage of the work beneath the inserting mechanism a design like that shown in Figs. 24 and 25 which is a comparatively simple design, or to insert designs which are much more complicated,

and have the features of the design upon the left heel of a pair of shoes appear in an order exactly the reverse of that in which they a pear upon the right heel.

.In tiie embodiment of the invention illustrated, the machine is constructed to furnish two different predetermined designs, the design furnished being dependent upon the position of the pin holder 202 over the dial 164. If the holder be moved by the slide bar 204 into a position to bring the pin 200 over the series of stops and the pin 214 over the series 194, one design will be furnished while if the holder be moved into a position to bring the pins 200 and 2l4 over the series 192 an 196 respectively, another design will be furnished, provided the arrangement of the stops in the latter two series for corresponding angles of rotation of the dial ditlers from that in the first two. It is, therefore, obviously possible to so arrange the stops in the series that the series 192 and 196 will cause a dcsi n to be furnished wherein the order in w hich the features of the design appear is the reverse of that in which the like features of the design controlled by the series 190 and 194 appear. Such an arrangement of the series is shown in Fig. 23 and also in Fig. 26. The design shown in Fi 24, which is intended for a heel of a ri ht shoe, is produced when the pins .200 ancTQl-t are positioned respectively over the series 190 and 1% in Fig. 23, and the design shown in Fig. 25, which is intended for a heel of a left shoe, is produced when the said pins are respectively over the series 192 and 196 in Fig. 23. When the pins 200 and 214 are in position to cooperate with the series of stops 190 and 194 respectively, as shown in full lines in Fig. 23 and the presenter is controlled by a pattern cam groove 136 like that shown in Figs. 5 and 20, at least one fastening will be inserted at each operation of the inserting mechanism since the series of stops 190 is continuous. As no space in the series 194 in Fig. 9.3 will come under the pin 914 until the dial has been rotated by the shoe to bring the radial line P into the )osition now occupied by the radial line N, the pin 214 will be kept in its raised position, the cam slide 154 shown in Fig. 5 will remain in the iosition there shown, the. presenter 117 will i the rack toothed bar 130 bringing the strip w between the cutters and will remain in this position until the dial has been rotated to bring a portion of the continuous space between the radial lines I and N under the pin 214. When the dial has thus been rotated to bring a space in the series 194 under the in 214, the said pin upon being released by tie upward movement of the pm 200 as it contacts with one of the series of stops m moved backward with loo - forward movement.

190 will move do i, causing the cam slide 15:: to lowerthe (it g 138 and raisethe dog 140 whereby the presenter-actuating bar 128 is connected to the rack toothed bar 130 for The presenter is now moved forward bringing strips w and 3 be tween the euttersathe strip g bein brought into the position before occupied by the strip 'w. The partswill'remain in this 0- sition until a stop is again brought an er the pin 214 which will occur, whenthe dial is constructed as shown in Fi 23, after it has been rotated to bring the radial line S into the position originally occupied by the radial line N. A sto in the series 194 now meeting the pin 214 in its descent with the slide bar 90-; the presenter will be moved backward bringing the strip 10 again between the cutters, and moving the strips a: and 3 beyond them.

The parts upon the periphery of the heel which are under the lIlSQIllll" mechanism at the different times when the presenter is moved to vary the number of the kinds of fasteuings to be inserted at each fasteninginserting operation have been indicated at Fig. .23 by letters corresponding to those attached to the radial lines.

The manner in which the designs shown in Figs. 24 and 27 are 1produced will be readily apparent from. he foregoing description. The design shown in Fig. 27, which is intended for the heel of a right shoe, illustrates the effect of providing spaces in the series of stops with which the pin 200 cooperates, this design being produced by the series 190, and having the spaces in the design corresponding to the spaces in the series. It will be noted from t ie arran ement of the spaces in the series 102 that t 1e design produced by it will have features like those of the design shown in Fig. 27, but arranged in reverse order, thereby adapting it for the heel of the left shoe. The series 194 and 196 are shown as continuous in Fig. 26.

When the dial is provided with a plurality of differently spaced series of stops for either the pin 200 or the in 214, especially when the dial is providec with a right design and a left design as shown in F1 s. 23 and .26, means is preferably provided fl)! automatically positioning the pins to cooperate with the series of stops furnishing the design suited to the shoe to be 0 erated upon. In the construction shown 0 means for this purpose advantage is taken of the fact that, as ordinarily made, the side of the sole of one of the shoes of a air will extend in toward the machine fart er than the side of the sole of the other shoe when the shoe is placed upon the work support with its heel in position to receive the initial fastening of the design. When the shoes are presented to a machine like that illustrated in which the work-feeding mechanism feeds the work from right to left, the sole of the right shoe of a pair, when the heel is in proper position to receive the initial fastening of a design, will project in farther than the sole of a left shoe when in corresponding position. A feeler 276 is therefore provided adapted to be moved into contact with the sole of the shoe to be operated upon and by its position to determine which of the designs that the machine is e nipped to furnish shall be inserted in his shoe. The sole feeler 276 is adjustably attached to one arm of an angle lever 278 pivoted upon the machine head, the stem of the feeler being bentso as to permit adjustment longitudinally of the shoe through its connection with the arm and havin a U-shaped portion as shown which permits forward or backward adjustment by bending and also allows the feeler to yield when the pin holder is held against movement toward the left. The other arm of the angle lever is connected by a link 280 to the pin holder 202. Connected to the arm of the angle lever which carries the feeler is a rod 282 frintionally connected to one arm 358 of a three-armed lever constituting a part of the actuating mechanism of the machine. When the actuating mechanism is set in operation, the arm 858 is moved forward, thereby moving the feeler 276 until it contacts with the edge of the sole of the shoe to be operated upon after which the rod 282 slips through its frictional connection with the arm 858 for 100 the remainder of the movement of the latter.

If a right shoe be in position to receive the initial fastening of a design in its heel, as shown in full lines in Fig. 23, the sole feeler will be moved into its full line position 105 there shown and conset uently the pinholder 202 will be moved to place he pins 200 and 214 over the series of stops 100 and 194 respectively. If a left shoe be in position to receive the initial fastening of a heel den sign, as shown in dotted lines in Fig. 23, the sole feeler will be moved forward to its dotted line position there shown, when the actuating mechanism is set in operation, and

the pin holder will be moved to place the 115 pins .200 and 214 over the series of stops 192 and 196, respectively.

It will be noted that the presenter cam groove 136 is formed in the cam disk 110 which carries the fastening length control- 120 ling cam m'cmbers 108 and that, therefore, the selection of fastcnings from the different sources of sup ly bears a determined relation to the lengt is of the fastenings when the presenter is moved by its cam groove. 12s It will be readily understood, therefore, that with this construction fastenings of predetermined lengths may, if desired, be taken from predetermined sources of supply and that, for example, the long fasten- Is 

